battery DATSUN PICK-UP 1977 Owner's Manual
Page 188 of 537
MEASUREMENT
OF
REGULATOR
VOLTAGE
Regulator
voltage
is
measured
with
regulator
assembled
with
alternator
When
measuring
voltage
with
regulator
mounted
on
car
it
is
necessary
to
rotate
engine
at
high
speed
Connect
DC
voltmeter
l5
30Y
DC
ammeter
l5
30A
battery
and
a
O
25fl
resistor
rated
at
25W
with
cables
as
shown
I
Check
to
be
sure
that
all
electrical
loads
such
as
lamps
air
conditioner
radio
etc
are
turned
off
2
Before
starting
engine
be
sure
to
make
short
circuit
with
a
cable
be
tween
fuse
side
terminal
of
resistor
O
25fl
and
negative
side
terminal
of
ammeter
Failure
to
follow
this
pre
caution
will
cause
needle
of
ammeter
to
swing
violently
resulting
in
a
dam
aged
ammeter
Engine
Electrical
System
Genera
tor
A
r
iJ
IG
Fuse
box
i
B
Rqulator
Connector
Wire
harness
Short
circuit
here
between
fuse
side
tenninal
and
terminal
of
ammeter
before
starting
the
operation
Ammeter
lOA
V
Voltmeter
30V
EE055
Fig
EE
48
Measuring
regulator
voltage
with
regulator
on
vehicle
3
Refer
to
the
following
chart
to
determine
if
regulator
and
relative
EE
21
parts
are
in
good
condition
Page 189 of 537
Engine
Electrical
System
I
Start
engine
2
Rotate
engine
at
2
500
rpm
for
several
minutes
Mter
racing
for
several
minutes
ammeter
reading
below
SA
After
racing
for
several
minutes
ammeter
reading
over
5
A
Fully
charged
battery
available
I
Replace
with
fully
charged
battery
2
Check
to
see
if
current
falls
below
SA
Fully
charged
battery
not
available
I
Connect
a
0
25
ohm
resistor
in
series
Current
falls
below
SA
Current
does
not
fall
below
SA
Recharge
battery
and
see
if
current
falls
below
SA
Reduce
engine
speed
to
idling
and
then
raise
it
to
2
500
rpm
while
observing
needle
of
voltmeter
Needle
of
voltmeter
held
within
limits
shown
in
the
below
table
Regulator
functioning
properly
Needle
of
voltme
ter
ou
t
of
limits
shown
in
the
following
chart
Adjust
or
replace
regulator
Regulator
type
TLI
Z
85C
Temperature
Oc
OF
Voltage
V
speed
c
Voltage
may
be
approximately
0
3
V
higher
than
rated
for
two
to
three
minutes
after
engine
is
start
ed
or
more
specifically
when
regu
lator
becomes
self
heated
Measure
ments
should
then
be
made
within
one
minute
after
starting
engine
or
when
regulator
is
cold
d
The
regulator
is
of
a
temperature
compensating
type
Before
meas
uring
voltage
be
sure
to
measure
surrounding
temperature
and
cor
rect
measurements
according
to
the
table
at
left
10
14
0
32
10
50
20
68
30
86
40
104
14
75
to
15
75
14
60
to
15
60
14
45
to
1545
14
30
to
15
30
14
15
to
15
15
14
00
to
15
00
Notes
3
Do
not
measure
voltage
immediate
ly
after
driving
Do
this
while
regulator
is
cold
b
To
measure
voltage
raise
engine
speed
gradually
from
idling
to
rated
EE
22
Page 191 of 537
Engine
Electrical
System
RegulatoI
r
Yellow
terminal
A
W
L
WR
IG
WL
N
Y
E
B
F
WB
Voltmeter
Fig
EE
52
Tuting
charging
re
Qy
EE348
SERVICE
DATA
AND
SPECIFICATIONS
Voltage
legulator
Type
Regulating
voltage
with
fully
charged
battery
Voltage
coil
resistance
RotOI
coil
inserting
resistance
Voltage
coil
series
resistance
Smoothing
resistance
COle
gap
Point
gap
Ch
uge
lay
Release
voltage
Voltage
coil
resistance
Core
gap
Point
gap
v
fl
nun
in
nun
in
V
fl
nun
in
mID
in
TLl
Z
S5C
14
3
to
15
3
at
200C
680F
10
5
at
200C
680F
10
31
40
0
6
to
1
0
0
024
to
0
039
0
35
to
0
45
0
014
to
O
OIS
4
2
to
5
2
at
N
terminal
37
S
at
200C
680F
0
8
to
1
0
0
031
to
0
039
0
4
to
0
6
0
016
to
0
024
Standard
tempelatUIe
gIlIdient
O
OISV
oC
EE
24
Page 193 of 537
NON
CALIFORNIA
MODELS
Engine
Electrical
System
IGNITION
CIRCUIT
CONTENTS
EE
26
CALIFORNIA
MODELS
EE
2B
NON
CALIFORNIA
MODELS
The
ignition
circuit
consists
of
the
ignition
switch
coil
distributor
wiring
spark
plugs
and
battery
The
circuit
is
equipped
with
a
resistor
During
cranking
electrical
current
bypasses
the
resistor
thereby
connecting
the
ignition
coil
directly
to
battery
This
provides
full
battery
voltage
available
at
coil
and
keeps
ignition
voltage
as
high
as
possible
The
low
voltage
current
is
supplied
by
the
battery
or
alternator
and
flows
through
the
primary
circuit
It
consists
of
the
ignition
switch
resistor
primary
winding
of
the
ignition
coil
distributor
contact
points
condenser
and
all
connecting
low
tension
wiring
The
high
voltage
current
is
pro
duced
by
the
ignition
coil
and
flows
through
the
secondary
circuit
result
ing
in
high
voltage
spark
between
the
electrodes
of
the
spark
plugs
in
engine
cylinders
This
circuit
contains
the
0
cl
Battery
Ignition
coil
secondary
winding
of
the
ignition
coil
high
tension
wiring
distributor
rotor
and
cap
When
the
ignition
switch
is
turned
on
and
the
distributor
contact
points
are
closed
the
primary
current
flows
through
the
primary
winding
of
the
coil
and
through
the
contact
points
to
ground
When
the
contact
points
are
opened
by
the
revolving
distributor
earn
the
magnetic
field
built
up
in
the
primary
winding
of
the
coil
moves
through
the
secondary
winding
of
the
coil
inducing
high
voltage
The
high
voltage
is
produced
every
time
the
contact
points
open
The
high
voltage
current
flows
through
the
high
tension
wire
to
the
distributor
cap
Then
the
rotor
distributes
the
current
to
one
of
the
spark
plug
terminals
in
the
distributor
Re5istor
To
starter
Secondary
winding
Cap
Breaker
point
f
Distributor
EE
26
cap
Then
the
spark
obtains
while
the
high
voltage
current
jumps
the
gap
between
the
insulated
electrode
and
the
ground
side
electrode
of
the
spark
plug
This
process
is
repeated
for
each
power
stroke
of
the
engine
The
distributor
contact
point
and
spark
plugs
should
be
inspected
clean
ed
and
regapped
at
tune
up
They
should
also
be
replaced
periodically
as
specified
in
the
Maintenance
Sched
ule
In
addition
apply
grease
NLGl
consistency
No
I
containing
MoS2
or
equivalent
to
distributor
shaft
and
grease
MIL
G
l0924B
containing
MoS2
or
equivalent
to
cam
as
reo
quired
The
remainder
of
the
ignition
component
parts
should
be
inspected
for
only
their
operation
tightness
of
electrical
terminals
and
wiring
con
dition
The
ignition
circuit
is
shown
below
IR
IB
I
is
21
J
g
Rotor
head
EE060
Fig
EE
53
Ignition
ydem
circuit
diagram
Page 195 of 537
Primary
winding
1
Ignition
coo
I
Secondary
winding
CALIFORNIA
MODELS
The
ignition
circuit
consists
of
igni
tion
switch
transistor
ignition
unit
distributor
wiring
spark
plugs
and
battery
The
distributor
is
of
the
contactless
type
and
is
equipped
with
a
pick
up
coil
which
electrically
detects
the
igni
tion
timing
signal
in
place
of
the
circuit
breaker
of
the
conventional
distributor
The
transistor
ignition
unit
is
a
new
addition
which
generates
the
signal
required
for
the
make
and
break
of
the
primary
electric
current
for
the
ignition
coil
The
circuit
is
equipped
with
a
resistor
During
cranking
electrical
current
bypasses
the
secondary
resis
tor
thereby
connecting
the
ignition
coil
through
the
primary
resistor
This
makes
battery
voltage
available
at
ef
ficiently
and
keeps
ignition
voltage
as
high
as
possible
The
primary
resistor
selVeS
to
pro
tect
transistor
ignition
circuit
The
low
voltage
current
is
supplied
by
the
battery
or
alternator
and
flows
through
the
primary
circuit
It
consists
of
the
ignition
switch
Engine
Electrical
System
resistor
primary
winding
of
the
igni
tion
coil
transistor
ignition
unit
and
all
connecting
low
tension
wiring
The
high
voltage
current
is
pro
duced
by
the
ignition
coil
and
flows
through
the
secondary
circuit
result
ing
in
high
voltage
spark
between
the
electrodes
of
the
spark
plugs
in
engine
cylinders
This
circuit
contains
the
secondary
winding
of
the
ignition
coil
distribu
tor
high
tension
wires
to
coil
and
spark
plugs
distributor
rotor
and
cap
When
the
ignition
switch
is
turned
on
and
the
distributor
reluctor
rotates
the
primary
current
flows
through
the
primary
winding
of
the
coil
and
through
transistor
ignition
unit
to
ground
When
the
prim
ary
circuit
is
opened
by
circuit
of
transistor
ignition
unit
the
magnetic
field
built
up
in
the
primary
winding
of
the
coil
moves
through
the
secondary
winding
of
the
coil
inducing
high
voltage
This
high
Battery
Primary
Secondary
I
Resistor
To
starter
r
Transis
tor
ignition
unit
I
I
Pick
up
rcoil
r
Rotor
head
nl
J
R5
U1f
1
Retuctor
r
oi
l
f
S
park
plugs
voltage
is
produced
every
time
the
primary
circuit
opens
The
high
voltage
current
flows
through
the
high
tension
wire
to
the
distributor
cap
then
the
rotor
distri
butor
cap
then
the
rotor
distributes
the
current
to
one
of
the
spark
plug
terminals
in
the
distributor
cap
Then
the
spark
occurs
while
the
high
voltage
current
jumps
the
gap
between
the
insulated
electrode
and
the
ground
side
electrode
of
the
spark
plug
This
process
is
repeated
for
each
power
stroke
of
the
engine
The
spark
plug
should
be
inspected
cleaned
and
regapped
at
tune
up
Spark
plugs
should
also
be
replaced
periodically
as
specified
in
the
Main
tenance
Schedule
The
remainder
of
the
ignition
com
ponent
parts
should
be
inspected
for
only
their
operation
air
gap
of
distri
butor
tightness
of
electrical
terminals
and
wiring
condition
Apply
grease
NLGI
consistency
No
I
containing
MoS
or
equivalent
to
distributor
rotor
shaft
as
required
EE287
EE
28
Fig
EE
55
Ignition
8Y3tem
circuit
diagram
Page 196 of 537
EARTH
POINT
r
W
b
FUSIBLE
LINK
BATTERY
L
d
l
ilR
j
i
BW
@
c
RESISTOR
COLOR
CODE
8
Black
OW
Black
with
white
stripe
DR
Black
with
red
stripe
W
White
L
Blue
R
Red
G
Green
Engine
Electrical
System
TRANSISTOR
IGNITION
UNIT
IHIIl
II
II
BW
BBV
RG
111
I
I
TERMINAL
BLOCK
r
c
IGNITION
COIL
BW
B
ml
BR
lliJ
LldJ0
IGNITION
SWITCH
EE
29
Fig
EE
56
Circuit
diagram
of
ignition
system
California
models
EE494
a
B
lof1
@
00
00
00
SR
00
00
Et
liiI
in
D1STRliUTOR
10
0
i9
J
SPARK
PLUGS
Page 203 of 537
EE299
Fig
EE
74
Driving
in
roll
pin
Engine
Electrical
System
4
Apply
grease
to
the
top
of
rotor
shaft
as
required
5
Check
the
operation
of
governor
before
installing
distributor
on
engine
6
Adjust
ignition
timing
after
distri
butor
is
installed
on
engine
SERVICE
DATA
AND
SPECIFICATIONS
Type
Firing
order
Rotating
direction
Duty
Air
gap
mm
in
MU
Cap
insulation
resistance
Rotor
head
insulation
resistance
MU
Cap
carbon
point
length
mm
in
D4F4
03
D4F4
04
1
3
4
2
Counterclockwise
70
20
to
40
at
idling
0
2
to
0
4
O
OOS
to
0
016
More
than
50
More
than
50
10
0
39
TRANSISTOR
IGNITION
UNIT
California
models
DESCRIPTION
TRANSISTOR
IGNITION
UNIT
REMOVAL
AND
INSTALLATION
INSPECTION
1
POWER
SUPPLY
WI
RING
AND
BATTERY
CHECK
DESCRIPTION
TRANSISTOR
IGNITION
UNIT
The
transistor
ignition
unit
provides
the
following
functions
L
It
makes
and
breaks
the
electric
current
in
the
primacy
circuit
of
the
ignition
coil
2
CONTINUITY
CHECK
OF
PRIMARY
CIRCUIT
3
PICK
UP
COIL
CONTINUITY
CHECK
4
PICK
UP
COIL
POWER
SIGNAL
PULSE
CHECK
5
TRANSISTOR
IGNITION
UNIT
CHECK
CONTENTS
EE
36
EE
36
EE
37
EE
37
EE
37
2
The
duty
control
circuit
sets
the
rate
of
make
and
break
within
one
cycle
i
e
this
maintains
good
ignition
characteristics
of
engine
from
low
speed
to
high
speed
and
is
equal
to
the
dweU
angle
in
the
conventional
breaker
type
distributor
3
A
preventive
circuit
against
lock
EE
36
EE
36
EE
38
EE
38
EE
39
ing
is
provided
This
cuts
off
the
prilnaCY
electric
current
in
the
ignition
coil
when
the
ignition
switch
is
turned
on
with
the
engine
not
running
Each
component
part
of
this
unit
is
highly
reliable
however
should
any
part
be
found
faulty
the
entire
assem
bly
must
be
replaced
Page 204 of 537
Engine
Electrical
System
Transistor
ignition
unit
r
1
Power
switching
circuit
Duty
control
circuit
To
starter
To
distributor
Ba
ttery
Ignition
coil
1
Spark
timing
1
Signal
mom
toring
circuit
Lock
j
preven
ling
circuit
nm
Distributor
EE437
Fig
EE
75
Transistor
ignition
unit
circuit
diagram
REMOVAL
AND
INSTALLATION
Transistor
ignition
unit
is
located
on
the
right
hand
dash
side
panel
in
passenger
compartment
Disconnect
battery
negative
cable
2
Disconnect
wiring
harness
from
unit
3
Remove
two
setscrews
and
te
move
unit
4
To
install
reverse
the
order
of
removal
Note
Be
sure
to
connect
wiring
har
nesses
to
their
proper
positio
Failure
to
do
so
will
damage
the
unit
Refer
to
Figure
EE
76
Fig
EE
76
External
view
of
ignition
unit
INSPECTION
If
the
engine
does
not
run
due
to
faulty
ignition
system
check
the
igni
tion
system
as
follows
Check
for
a
cracked
distributor
rotor
or
cap
and
corroded
tenninals
Visually
inspect
high
tension
wires
for
condition
and
if
necessary
use
an
ignition
oscilloscope
or
a
circuit
tester
to
make
performance
checks
Check
spark
plugs
and
adjust
gaps
as
neces
sary
Replace
a
spark
plug
which
is
not
suitable
for
further
use
If
the
above
checks
cannot
correct
the
problem
check
the
entire
ignition
system
with
an
oscilloscope
or
a
circuit
tester
L
CHECKING
WITH
AN
OSCILLOSCOPE
An
oscilloscope
can
be
used
for
checking
almost
all
the
items
in
a
transistor
ignition
system
CHECKING
WITH
A
CIRCUIT
TESTER
A
circuit
tester
can
not
be
used
for
the
duty
control
circuit
and
power
t18nsistor
performance
tests
Both
methods
use
of
an
oscilloscope
and
a
circuit
tester
are
described
in
this
section
EE
37
The
items
are
classified
by
numerals
in
accordance
with
the
objective
of
checks
to
be
performed
Several
wiring
diagrams
are
found
on
pages
EE
41
to
EE
45
The
thick
lines
indicate
the
objective
of
each
individual
item
check
When
checking
a
circuit
with
an
oscilloscope
or
a
circuit
tester
be
careful
not
to
confuse
the
polarity
of
the
lead
wires
if
potential
difference
exists
between
the
check
points
at
which
the
lead
wires
are
to
be
con
tacted
Also
do
not
attempt
to
con
nect
the
lead
wires
to
any
points
in
the
circuit
other
than
those
designated
Careless
handling
of
the
lead
wires
will
result
in
damage
to
the
transistor
ignition
unit
as
well
as
to
the
oscillo
scope
or
circuit
tester
The
connection
of
a
tachometer
or
a
timing
light
in
parallel
with
an
oscilloscope
or
a
circuit
tester
is
al
lowable
provided
that
such
a
connec
tion
is
made
with
due
consideration
to
wiring
connections
1
POWER
SUPPLY
WIRING
AND
BAnERY
CHECK
See
wIrIng
diagram
In
FIgure
EE
88
Procedure
I
Turn
on
ignition
switch
2
Connect
a
circuit
tester
or
an
oscilloscope
as
shown
in
the
figure
below
DC
50
volt
range
EE302
Fig
EE
77
Checking
power
supply
wiring
and
batt
ry
Criterion
When
power
source
battery
voltage
is
indicated
OK
Lower
or
no
indication
N
G
Page 205 of 537
If
the
result
is
N
C
Take
the
following
measures
I
Check
BW
and
B
color
wire
harness
respectively
for
proper
con
ductance
2
Check
battery
terminals
for
proper
connection
3
Check
charge
condition
of
bat
tery
if
an
excessively
low
voltage
is
indicated
2
CONTINUITY
CHECK
OF
PRIMARY
CIRCUIT
2
1
CheckIng
prImary
circuit
See
wiring
diagram
In
Fig
EE
89
Proced
ure
I
Disconnect
L
color
wire
from
ignition
unit
2
Turn
on
ignition
switch
3
C
ooneet
a
cireui
t
tester
or
an
oscilloscope
as
shown
in
Figure
EE
78
DC
50
volt
range
tf
S
EE303
Fig
EE
78
Checking
primary
circuit
Criterion
When
Donnal
power
Source
battery
voltage
is
indicated
OK
Lower
or
no
indication
N
G
If
the
result
is
N
C
Take
the
following
measures
1
Check
BW
and
L
color
wire
Engine
Electrical
System
harness
respectively
for
proper
con
ductance
2
Check
resistor
and
ignition
coil
terminals
for
loose
contact
3
Check
resistor
and
ignition
coil
for
discontinuity
4
Check
WB
color
wire
harness
of
ignition
coil
assembly
for
proper
continuity
2
2
Chacklng
IgnitIon
coil
auembly
See
wiring
diagram
In
Fig
EE
90
Procedure
I
Disconnect
ignition
coil
and
dis
tributor
harness
from
ignition
coil
external
resistor
2
Connect
a
circuit
tester
as
shown
in
the
figure
below
Resistance
1
range
Q
o
fD
ro
EE336
Fig
EE
79
Checking
ignition
coil
assembly
Criterion
When
approximately
1
6
to
2
0
ohm
is
indicated
OK
More
than
2
0
ohm
N
C
If
the
result
is
N
C
Replace
ignition
coil
assembly
3
PICK
UP
COIL
CONTINUITY
CHECK
See
wirIng
dIagram
In
Figure
EE
91
Procedure
Disconnect
R
and
G
color
wires
from
ignition
unit
2
Connect
a
circuit
tester
as
shown
in
the
figure
below
EE
3B
Resistance
10
range
fp
EE305
Fig
EE
BO
Checking
pick
up
coil
Criterion
When
approximately
720
ohm
is
indicated
OK
Far
less
than
or
more
than
720
ohm
N
C
If
the
result
is
N
C
Replace
pick
up
coil
assembly
4
PICK
UP
COIL
POWER
SIGNAL
PULSE
CHECK
Procedure
I
Disconnect
anti
dieseling
solenoid
valve
connector
2
Connect
a
circuit
tester
as
shown
in
the
figure
below
3
Rotate
starter
motor
4
Read
the
tester
indication
AC
2
S
volt
range
EE306
Fig
EE
81
Checking
pick
up
coil
power
aignal
pulse
Criterion
When
pointer
deflects
slightly
OK
When
pointer
does
not
deflect
at
all
N
C
If
the
result
is
N
C
Replace
pick
up
coil
assembly
Page 213 of 537
The
ignition
coil
is
an
oil
f1l1ed
type
The
ignition
coil
case
is
filled
with
oil
which
has
good
insulating
and
heat
radiating
characteristics
The
ignition
coil
has
a
greater
ratio
between
the
primary
and
secondary
windings
to
step
up
battery
voltage
t
high
voltage
This
causes
stronger
sparks
to
jump
the
spark
plug
gap
The
cap
is
made
of
alkyd
resin
which
offers
high
resistance
to
lectric
arc
and
increased
insulation
The
ignition
coil
and
resistor
should
be
handled
as
a
matched
set
When
high
tension
wire
is
installed
to
ignition
coil
there
should
be
no
clearance
between
their
caps
I
EE354
1
High
tension
wire
2
Rubber
cap
Fig
EE
94
Correcl
installation
of
high
t
Mjon
win
SPECIFICATIONS
Type
Primary
voltage
Spark
gap
Primary
resistance
at
200C
680F
Secondary
resistance
at
200C
680
F
KSl
External
resistor
at20
C
680F
n
Engine
Electrical
System
IGNITION
COIL
California
models
f
ID
@
J
C
ID
I
1W
1
R
bber
cap
for
ignition
coil
2
Secondary
terminal
3
Cap
4
Primary
terminal
5
Spring
6
Secondary
winding
7
Primary
winding
Notes
a
Do
not
disconnect
high
tension
wires
from
spark
plugs
during
en
gine
mnning
California
models
only
b
RoD
up
high
tension
wire
mbber
cap
and
instaD
high
tension
wire
to
ignition
coil
securely
Refer
to
Figure
EE
9S
Non
califomia
models
EE314
8
Side
core
9
Insulator
coil
10
Center
core
11
Segment
12
Case
13
Rubber
cap
Cor
terminal
Fig
EE
93
Sectional
view
of
ignition
coil
Fig
EE
95
Installing
high
tension
wire
Non
California
California
models
models
C6R
618
HS
15
18
CIT
16
STC
9
12
12
more
than
7
0
28
more
than
7
0
28
1
08
to
1
32
0
45
to
0
55
8
24
to
12
4
8
5
to
12
7
1
5
1
3
0
4
0
9
V
mm
in
n
EE
46